A reduced pressure tissue treatment system includes an applicator having an aperture, a first pad section, and a second pad section substantially covering the aperture and positioned substantially adjacent the first pad section. A fabric layer is located at least partially between the second pad section and the drape, and the fabric layer includes a woven or non-woven fabric made from a fiber material. A drape substantially covers the first pad section, the second pad section, the fabric layer, and the applicator. A reduced pressure source is in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
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1. A reduced pressure tissue treatment system comprising:
an applicator having an aperture;
a first pad section;
a second pad section substantially covering the aperture and positioned substantially adjacent the first pad section;
a fabric layer located at least partially between the second pad section and a drape, the fabric layer including a woven or non-woven fabric made from a fiber material;
the drape substantially covering the first pad section, the second pad section, the fabric layer, and the applicator; and
a reduced pressure source in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
16. A reduced pressure tissue treatment system comprising:
an applicator having an aperture;
a first pad section;
a second pad section substantially covering the aperture and positioned substantially adjacent to the first pad section;
a fabric layer located at least partially between the first pad section and a drape, the fabric layer further being located at least partially between the second pad section and the drape;
the drape substantially covering the first pad section, the second pad section, the fabric layer, and the applicator; and
a reduced pressure source in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
9. A reduced pressure tissue treatment system comprising:
an applicator having an aperture;
a first pad section;
a second pad section substantially covering the aperture and positioned substantially adjacent to the first pad section;
a fabric layer located at least partially between the first pad section and the applicator, the fabric layer further being located at least partially between the second pad section and the applicator;
a drape substantially covering the first pad section, the second pad section, the fabric layer, and the applicator; and
a reduced pressure source in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
2. The reduced pressure tissue treatment system of
3. The reduced pressure tissue treatment system of
4. The reduced pressure tissue treatment system of
5. The reduced pressure tissue treatment system of
6. The reduced pressure tissue treatment system of
7. The reduced pressure tissue treatment system of
8. The reduced pressure tissue treatment system of
10. The reduced pressure tissue treatment system of
11. The reduced pressure tissue treatment system of
12. The reduced pressure tissue treatment system for
13. The reduced pressure tissue treatment system of
14. The reduced pressure tissue treatment system of
15. The reduced pressure tissue treatment system of
17. The reduced pressure tissue treatment system of
18. The reduced pressure tissue treatment system of
19. The reduced pressure tissue treatment system of
20. The reduced pressure tissue treatment system of
21. The reduced pressure tissue treatment system of
22. The reduced pressure tissue treatment system of
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This application is a continuation of U.S. patent application Ser. No. 12/069,245, filed Feb. 8, 2008, now U.S. Pat. No. 7,880,050, which claims the benefit of U.S. Provisional Application No. 60/900,463, filed Feb. 9, 2007, both of which are hereby incorporated by reference.
1. Field of the Invention
The present application relates generally to systems and methods for providing reduced pressure tissue treatment to open wounds and other tissue sites. More particularly, the present application relates to a breathable interface systems for topical reduced pressure.
2. Description of Related Art
Clinical studies and practice have shown that providing a reduced pressure in proximity to a tissue site augments and accelerates the growth of new tissue at the tissue site. The applications of this phenomenon are numerous, but application of reduced pressure has been particularly successful in treating wounds and tissue sites. This treatment (frequently referred to in the medical community as “negative pressure wound therapy,” “reduced pressure therapy,” or “vacuum therapy”) provides a number of benefits, including faster healing, and increased formulation of granulation tissue.
Reduced pressure tissue treatment has recently been popularized by Kinetic Concepts, Inc. of San Antonio, Tex., through its commercially available VAC reduced pressure tissue treatment systems product line. In general, such reduced pressure tissue treatment systems comprise a pad-based dressing, which is applied to the tissue and is sometimes referred to as the “tissue interface” or the “wound interface.”
Current dressings, however, have several disadvantages. They are difficult to apply to small wounds, and often lead to maceration of the wound periphery. Traditionally, dressings have been rather cumbersome, limiting many patient activities. Simply sitting on or rolling onto a dressing may cause significant patient discomfort. Moreover, these actions may compress the dressing and interfere with the application of reduced pressure to a manifold at the tissue site.
The problems presented with these conventional dressings are solved by an improved breathable interface system for topical reduced pressure. In one illustrative embodiment, a reduced pressure tissue treatment system is provided and includes an applicator having an aperture, a first pad section, and a second pad section. The second pad section substantially covers the aperture and is positioned substantially adjacent the first pad section. A fabric layer is located at least partially between the second pad section and the drape, and the fabric layer includes a woven or non-woven fabric made from a fiber material. A drape substantially covers the first pad section, the second pad section, the fabric layer, and the applicator. A reduced pressure source is in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
In another illustrative embodiment, a reduced pressure tissue treatment system includes an applicator having an aperture, a first pad section, and a second pad section substantially covering the aperture and positioned substantially adjacent to the first pad section. A fabric layer is located at least partially between the first pad section and the applicator, and the fabric layer further is located at least partially between the second pad section and the applicator. A drape substantially covers the first pad section, the second pad section, the fabric layer, and the applicator. A reduced pressure source is in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
In yet another illustrative embodiment, a reduced pressure tissue treatment system includes an applicator having an aperture, a first pad section, and a second pad section substantially covering the aperture and positioned substantially adjacent to the first pad section. A fabric layer is located at least partially between the first pad section and the drape, and the fabric layer further is located at least partially between the second pad section and the drape. A drape substantially covers the first pad section, the second pad section, the fabric layer, and the applicator. A reduced pressure source is in fluid communication with at least one of the first pad section and the fabric layer for providing reduced pressure to the aperture.
Other objects, features, and advantages of the illustrative embodiments will become apparent with reference to the drawings and the detailed description that follow.
In the following detailed description of the preferred embodiments, reference is made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration specific preferred embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention, and it is understood that other embodiments may be utilized and that logical, structural, mechanical, electrical, and chemical changes may be made without departing from the spirit or scope of the invention. To avoid detail not necessary to enable those skilled in the art to practice the invention, the description may omit certain information known to those skilled in the art. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims.
The term “reduced pressure” as used herein generally refers to a pressure less than the ambient pressure at a tissue site that is being subjected to treatment. In most cases, this reduced pressure will be less than the atmospheric pressure at which the patient is located. Alternatively, the reduced pressure may be less than a hydrostatic pressure of tissue at the tissue site. Although the terms “vacuum” and “negative pressure” may be used to describe the pressure applied to the tissue site, the actual pressure applied to the tissue site may be significantly less than the pressure normally associated with a complete vacuum. Reduced pressure may initially generate fluid flow in the tube in the area of the tissue site. As the hydrostatic pressure around the tissue site approaches the desired reduced pressure, the flow may subside, and the reduced pressure is then maintained. Unless otherwise indicated, values of pressure stated herein are gauge pressures.
The term “tissue site” as used herein refers to a wound or defect located on or within any tissue, including but not limited to, bone tissue, adipose tissue, muscle tissue, neural tissue, dermal tissue, vascular tissue, connective tissue, cartilage, tendons, or ligaments. The term “tissue site” may further refer to areas of any tissue that are not necessarily wounded or defective, but are instead areas in which it is desired to add or promote the growth of additional tissue. For example, reduced pressure tissue treatment may be used in certain tissue areas to grow additional tissue that may be harvested and transplanted to another tissue location.
Referring to
In an illustrative embodiment, any hydrogel or bonding agent may be applied to the aperture 302 and the applicator 110 for sealing or contact purposes with a tissue site. The second pad section 104 is generally positioned to substantially cover the aperture 302, between the drape 108 and the applicator 110 as shown in
Referring to
In any of the breathable interface systems 100, 200, 500, and 600, the reduced pressure conduit 112 may be located in direct contact with the first pad section 102 and/or the fabric layer 106. The reduced pressure conduit 112 may be placed in direct contact with the first pad section 102 or the fabric layer 106 by directly inserting it into either of the first pad section 102 or the fabric layer 106 near the end 114 of the breathable interface system 100. In another illustrative embodiment, the breathable interface systems 100, 200, 500, and 600 may further include the interface 402 as shown in
In one illustrative embodiment, the side 120 of the second pad section 104 extends between the top surface 124 and a bottom surface 128 of the second pad section 104. The bottom surface 128 of the second pad section 104 may have a surface area that may cover substantially all or a portion of the top surface 132 of the end 116 of the applicator 110. Additionally, the side 122 of the first pad section 102 extends between the top surface 130 and the bottom surface 126 of the first pad section 102. The bottom surface 126 of the first pad section 102 may have a surface area that may cover substantially all or a portion of the end 114 of the top surface 132 of the applicator 110.
The applicator 110 may be any size desirable to adequately provide effective covering and functionality to a tissue site as described herein. In one aspect, the applicator 110 includes a bottom surface 134 that may preferably contact the tissue site. The end 116 of the applicator 110 may have a surface area of a different shape than the end 114 of the applicator 110. For example, the surface area of the end 116 as shown in
Preferably, the bottom surface 136 of the drape 108 covers and secures the first pad section 102, fabric layer 106, and second pad section 104 to the top surface 132 of the applicator 110. In one aspect, the applicator 110 and drape 108 are sealed together substantially around the perimeter or periphery of their respective shapes. Preferably, the applicator 110 and drape 108 isolate the tissue site from its surrounding environment and maintain a reduced pressure at the tissue site when reduced pressure is applied as described herein. The applicator 110 may be secured to drape 108 with any suitable bonding agent, such as an acrylic adhesive or hydrogel. In addition, the applicator 110 may be joined to the drape 108 by other commonly known means, such as bonding, adhesives, welding, fastening, and sintering, for example. Typically, a hydrogel or other tissue-friendly bonding agent may be applied to the tissue side or bottom surface 134 of the applicator 110, which is then placed into the tissue site or in contact with the perimeter of the tissue site to secure the dressing to the tissue site.
In an illustrative embodiment, the first pad section 102 and second pad section 104 may be a material known in the art to be suitable for reduced pressure tissue treatment, the size and shape of which may be varied to accommodate tissue sites of various size and shape as described herein. Preferably, the first pad section 102 and second pad section 104 include a plurality of flow channels or pathways to facilitate the distribution of reduced pressure or fluids to or from the tissue site. In one illustrative embodiment, the first pad section 102 and second pad section 104 are porous foam that includes interconnected cells or pores that act as flow channels. In addition to the above, the first pad section 102 and second pad section 104 may be a material such as an open cell, reticulated foam that is formed from a range of polymers, including without limitation polyurethane, polyolefin, vinyl acetate, polyvinyl alcohol, and their copolymers. Additionally, the first and second pad section 102, 104 may be woven or non-woven materials, including 3-dimensional fabric structures. The pads may also be made from a sintered polymer, including materials such as sintered polyolefin, ethylene vinyl acetate, and fluoropolymer. The first pad section 102 and second pad section 104 may also be any other type of open-cell, reticulated foam, such as GranuFoam® and Whitefoam™ that are manufactured by Kinetic Concepts, Inc. of San Antonio, Tex. If open-cell foam is used, the porosity may vary, but is preferably about 400 to 600 microns. Alternatively, gauze or any other material suited to a particular biological application may be used to construct first pad section 102 and second pad section 104. In a certain illustrative embodiment, first pad section 102 and second pad section 104 may be constructed as a single, unitary pad. In another illustrative embodiment, first pad section 102 and second pad section 104 may be a multi-component or multi-layered pad section. Preferably, the thicknesses of the first pad section 102 and second pad section 104 is from about 1 mm to about 50 mm, and in one implementation from about 5 mm to about 20 mm, although any thicknesses may be used.
In an illustrative embodiment, the fabric layer 106 may be a woven or non-woven fabric material known in the art, the size and shape of which may be varied to accommodate tissue sites of various size and shape as described herein. It may be constructed from any fiber material that maintains its structural integrity when exposed to fluids, such as polyamide, polyolefin, nylon, polyester, a polyamide coated with polyurethane, any polymeric mesh, a non-woven (air layed) melt blown polymer, or flexible sintered polymer. The fabric layer 106 may also be a fabric covered with adhesive or hydrogel to facilitate bonding to the tissue site, where the fabric layer 106 extends beyond the applicator 110. The material may be woven together to form a layer of appropriate dimensions, or it may be any type of open cell mesh construction of appropriate dimensions. As illustrated in
The drape 108 may be a flexible material having a sufficiently high moisture vapor transmission rate (“MTVR”) to preclude tissue maceration, typically greater than 600 mg/m2/day. In one aspect, plastics and thermoplastics are an example of suitable materials for the drape 108. And like the drape 108, the applicator 110 generally is constructed from any flexible material having a sufficiently high MTVR to preclude maceration of the tissue site, such as plastics and thermoplastics.
The reduced pressure conduit 112 may represent any conduit tubing, line, or path through which a gas, liquid, gel, or other fluid may be carried, and may have more than one internal lumen. While the reduced pressure conduit 112 may be inflexible, it is preferred that it be flexible enough for ease of use and comfort for a patient. The reduced pressure conduit is configured for connection to a reduced pressure source to provide delivery of reduced pressure.
In an illustrative embodiment, the breathable interface systems 100, 200, 500, and 600 may be lightweight, low-profile interface systems for low-severity, small tissue sites, but the principles are readily extendable by a person of ordinary skill in the art to larger, more extensive tissue sites, as well as numerous other types of tissue treatments.
Referring again to
Referring to
Referring to
The flow of water was set to approximately 20 mls/hr and a compressive force from approximately 0 N to about 500-930 N was applied to the conventional dressing and the breathable interface system 100. The y-axis 802 represents the amount of reduced pressure or vacuum measured at either the pump or the dressing/breathable interface system 100. The x-axis 804 represents the duration of time expired from the start of the tests. Line 806 represents the magnitude of the reduced pressure at the pump for the conventional dressing and the line 808 represents the magnitude of the reduced pressure at the opposite side of the dressing. As can be seen from
Conversely, line 810 represents the magnitude of the reduced pressure at the pump for the breathable interface system 100 and the line 812 represents the magnitude of the reduced pressure at the opposite side of the dressing. As described above, a compressive force of approximately 900 N was applied to the conventional dressing and the amount of measurable reduced pressure was approximately 50 mm Hg at the dressing, as shown by line 812. At the start of event 814, the compressive force was released, thus the amount of measurable reduced pressure at the dressing increased to approximately 120 mm Hg. At the end of event 814, a compressive force was applied at a magnitude of 525 N and the amount of measurable reduced pressure was reduced to approximately 50 mm Hg. During this same event, the measurable reduced pressure at the pump side of the dressing, as shown by line 810, stayed at approximately 125 mm Hg. This shows that with a breathable interface system 100 under compressive force, the amount of reduced pressure is still substantial. Similarly, at events 816, 818, and 820, compressive forces were released and reapplied at approximately 250 N. It can be seen from
Referring to
Pressure measurements were taken on both sides of the compressive forces to determine the response times of a conventional dressing compared with the breathable interface system 100 described above. The results, as shown in
As can be seen from
It should be apparent from the foregoing that an invention having significant advantages has been provided. While the invention is shown in only a few of its forms, it is not just limited but is susceptible to various changes and modifications without departing from the spirit thereof.
Locke, Christopher Brian, Robinson, Timothy Mark
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